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Literature DB >> 12654724

A divergent INS protein in Caenorhabditis elegans structurally resembles human insulin and activates the human insulin receptor.

Qing-Xin Hua¹, Satoe H Nakagawa, Jill Wilken, Rowena R Ramos, Wenhua Jia, Joseph Bass, Michael A Weiss.

Abstract

Caenorhabditis elegans contains a family of putative insulin-like genes proposed to regulate dauer arrest and senescence. These sequences often lack characteristic sequence features of human insulin essential for its folding, structure, and function. Here, we describe the structure and receptor-binding properties of INS-6, a single-chain polypeptide expressed in specific neurons. Despite multiple nonconservative changes in sequence, INS-6 recapitulates an insulin-like fold. Although lacking classical receptor-binding determinants, INS-6 binds to and activates the human insulin receptor. Its activity is greater than that of an analogous single-chain human insulin analog.

Entities: Chemical Disease Gene Species

Mesh：

Substances：
Insulin
Receptor, Insulin

Year: 2003 PMID： 12654724 PMCID： PMC196032 DOI： 10.1101/gad.1058003

Source DB: PubMed Journal: Genes Dev ISSN： 0890-9369 Impact factor: 11.361

24 in total

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5. Hierarchical protein "un-design": insulin's intrachain disulfide bridge tethers a recognition alpha-helix.

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Review 9. Structural biology of insulin and IGF1 receptors: implications for drug design.

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10. daf-28 encodes a C. elegans insulin superfamily member that is regulated by environmental cues and acts in the DAF-2 signaling pathway.

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22 in total

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2. Pattern Formation in the Longevity-Related Expression of Heat Shock Protein-16.2 in Caenorhabditis elegans.

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5. Contribution of residue B5 to the folding and function of insulin and IGF-I: constraints and fine-tuning in the evolution of a protein family.

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6. Insulin analog with additional disulfide bond has increased stability and preserved activity.

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7. Evolution of insulin at the edge of foldability and its medical implications.

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